Scientific Highlights
Two PSI-Scientists nominated «highly cited researchers»
In the research field “Geosciences”, 143 highly cited researchers were appointed worldwide this year, 7 of them from Switzerland, 2 of them from the Paul Scherrer Institute.
PSI maintains its leading role in the CLOUD experiment at CERN
The CLOUD experiment at CERN will be recreating particle formation in key regions of the globe to understand the effects of these particles on regional climates
Take a deep breath. But how clean was the air?
The EU project, RI-URBANS, aims to improve air quality monitoring across Europe
Successful Ambizione Grant Applicant
Kaspar Dällenbach, Scientist at the Laboratory of Atmospheric Chemistry (LAC) at the Paul Scherrer Institute (PSI) was granted the Ambizione Grant 2020 with his project “Particulate air pollution sources in low-income megacities (PRESSING)”.
Successful Ambizione Grant applicant
Patrik Winiger, Research Grant Advisor and Project Manager at ETH Zurich, successfully applied for the Ambizione Grant 2020 with the project “Macromolecular Aerosols in the Cryosphere from the Arctic to the Alps – MACrAA”. The idea was developed together with the Laboratory for Atmospheric Chemistry (LAC) at PSI. The LAC is a global leader in aerosol analytics and source identification. They own and operate a unique laboratory infrastructure with various instruments and multiple aerosol simulation chambers available for researchers.
Aerosolbildung in Wolken
Forschende des PSI zeigen erstmals, wie chemische Reaktionen in Wolken das weltweite Klima beeinflussen können.
Welcher Feinstaub das grösste Gesundheitsrisiko birgt
Die Zusammensetzung von Feinstaub kann dessen gesundheitliche Schädlichkeit genauso wie die Menge beeinflussen, zeigen Forschende des PSI in einer aktuellen Studie. Experimente und Modellrechnungen ergaben ausserdem, dass in Europa vor allem Ballungsgebiete besonders hoch mit gesundheitsschädlichem Feinstaub belastet sind.
Iodsäure beeinflusst Wolkenbildung am Nordpol
Ein internationales Forschungsteam hat einen neuen Faktor identifiziert, der die Bildung von Feinstaubpartikeln in der Arktis vorantreibt. Dabei handelt es sich um Iodsäure, eine chemische Verbindung, die in der Region zuvor noch nicht gemessen wurde.
Newly discovered rapid particle growth rates may be the answer to the mystery of aerosol formation in urban smog
Aerosols, suspended particles or droplets, play a key role in Earth’s atmosphere’s energy balance. They can also result in smog formation in cities, which leads to low visibility and serious health risks for the population. A recent study published in Nature outlines a newly discovered mechanism that may play a key role in the continued survival of particles in wintertime smog.